Summary"Coordination Chemistry and Molecular Magnetism are in an ideal position for the rational design of Single-Molecule Magnets which can be used as molecular spin qubits, the irreducible components of any quantum technology. Indeed, a major advantage of molecular spin qubits over other candidates stems from the power of Chemistry for a tailored and inexpensive synthesis of systems for their experimental study. In particular, the so-called Lanthanoid-based Single-Ion Magnets, which are currently the hottest topic in Molecular Magnetism, have the potential to be chemically designed, tuning both their single-molecule properties and their crystalline environment. This will allow the independent study of the different quantum processes that cause the loss of quantum information, collectively known as decoherence. The study of quantum decoherence processes in the solid state is necessary both to lay the foundations for next-generation quantum technologies and to answer some fundamental questions.
The goals of this project are:
#1 To unravel the mechanistic details of decoherence in molecular spin qubits based on mononuclear lanthanoid complexes. This study will stablish criteria for the rational design of single spin qubits.
#2 To extend this study to the coupling between two or more spin qubits. This will allow us to explore the use of polynuclear lanthanoid complexes to achieve quantum gates or simple algorithms.
#3 To extrapolate to infinite systems formed by the complex organization of spin qubits. This exploratory goal will permit us to move beyond zero-dimensional systems, thus facilitating the advance towards complex quantum functions.
"

"Coordination Chemistry and Molecular Magnetism are in an ideal position for the rational design of Single-Molecule Magnets which can be used as molecular spin qubits, the irreducible components of any quantum technology. Indeed, a major advantage of molecular spin qubits over other candidates stems from the power of Chemistry for a tailored and inexpensive synthesis of systems for their experimental study. In particular, the so-called Lanthanoid-based Single-Ion Magnets, which are currently the hottest topic in Molecular Magnetism, have the potential to be chemically designed, tuning both their single-molecule properties and their crystalline environment. This will allow the independent study of the different quantum processes that cause the loss of quantum information, collectively known as decoherence. The study of quantum decoherence processes in the solid state is necessary both to lay the foundations for next-generation quantum technologies and to answer some fundamental questions.
The goals of this project are:
#1 To unravel the mechanistic details of decoherence in molecular spin qubits based on mononuclear lanthanoid complexes. This study will stablish criteria for the rational design of single spin qubits.
#2 To extend this study to the coupling between two or more spin qubits. This will allow us to explore the use of polynuclear lanthanoid complexes to achieve quantum gates or simple algorithms.
#3 To extrapolate to infinite systems formed by the complex organization of spin qubits. This exploratory goal will permit us to move beyond zero-dimensional systems, thus facilitating the advance towards complex quantum functions.
"

Max ERC Funding

1 827 375 €

Duration

Start date: 2015-08-01, End date: 2020-07-31

Project acronymDISLIFE

ProjectLiveable disabilities: Life courses and opportunity structures across time

Researcher (PI)Lotta Marie Christine Vikström

Host Institution (HI)UMEA UNIVERSITET

Call DetailsConsolidator Grant (CoG), SH2, ERC-2014-CoG

SummaryIn Europe today disabled people comprise some 65 million (10%). Yet they are marginalized in society and research, and little is known on how disabilities become liveable. This project challenges this bias by proposing to investigate ‘liveable disabilities’ as a function of disability and opportunity structures across time. It analyses four life course dimensions: disabled people’s (1) health and well-being; (2) involvement in education and work; (3) in a partner relationship and family; and (4) in leisure structures. Through this I identify liveable disabilities before, during and after the Swedish welfare state. The results are of significant cross-national interest as they form a useful baseline for what constitutes liveable disabilities, which helps governing bodies maximize opportunity structures for disabled people to participate fully in society.
This proposal is unique in employing mixed-methods life course research across time. First, it involves quantitative analysis of Sweden’s long-term digitized population databases, which reflect how disability impacts on people’s educational, occupational, marital and survival chances. The statistical outcome is novel in demonstrating how different impairments intersect with human characteristics relative to society’s structures of the past 200 years. Second, qualitative analyses uncover how disabled people today experience and talk about the above dimensions (1-4) themselves, and how mass media depict them. Third, I make innovative studies of leisure structures, which may promote liveable disabilities.
The proposal aims to establish me at the forefront of disability research. It benefits from my scholarship in history and demography and from three excellent centres at Umeå University I am connected to, funded by the Swedish Research Council. One centre researches populations, another gender. The third provides expertise in disability studies and ready access to stakeholders outside academia.

In Europe today disabled people comprise some 65 million (10%). Yet they are marginalized in society and research, and little is known on how disabilities become liveable. This project challenges this bias by proposing to investigate ‘liveable disabilities’ as a function of disability and opportunity structures across time. It analyses four life course dimensions: disabled people’s (1) health and well-being; (2) involvement in education and work; (3) in a partner relationship and family; and (4) in leisure structures. Through this I identify liveable disabilities before, during and after the Swedish welfare state. The results are of significant cross-national interest as they form a useful baseline for what constitutes liveable disabilities, which helps governing bodies maximize opportunity structures for disabled people to participate fully in society.
This proposal is unique in employing mixed-methods life course research across time. First, it involves quantitative analysis of Sweden’s long-term digitized population databases, which reflect how disability impacts on people’s educational, occupational, marital and survival chances. The statistical outcome is novel in demonstrating how different impairments intersect with human characteristics relative to society’s structures of the past 200 years. Second, qualitative analyses uncover how disabled people today experience and talk about the above dimensions (1-4) themselves, and how mass media depict them. Third, I make innovative studies of leisure structures, which may promote liveable disabilities.
The proposal aims to establish me at the forefront of disability research. It benefits from my scholarship in history and demography and from three excellent centres at Umeå University I am connected to, funded by the Swedish Research Council. One centre researches populations, another gender. The third provides expertise in disability studies and ready access to stakeholders outside academia.

Max ERC Funding

1 999 870 €

Duration

Start date: 2016-02-01, End date: 2021-01-31

Project acronyme-NeuroPharma

ProjectElectronic Neuropharmacology

Researcher (PI)Rolf Magnus BERGGREN

Host Institution (HI)LINKOPINGS UNIVERSITET

Call DetailsAdvanced Grant (AdG), PE5, ERC-2018-ADG

SummaryAs the population ages, neurodegenerative diseases (ND) will have a devastating impact on individuals and society. Despite enormous research efforts there is still no cure for these diseases, only care! The origin of ND is hugely complex, spanning from the molecular level to systemic processes, causing malfunctioning of signalling in the central nervous system (CNS). This signalling includes the coupled processing of biochemical and electrical signals, however current approaches for symptomatic- and disease modifying treatments are all based on biochemical approaches, alone.
Organic bioelectronics has arisen as a promising technology providing signal translation, as sensors and modulators, across the biology-technology interface; especially, it has proven unique in neuronal applications. There is great opportunity with organic bioelectronics since it can complement biochemical pharmacology to enable a twinned electric-biochemical therapy for ND and neurological disorders. However, this technology is traditionally manufactured on stand-alone substrates. Even though organic bioelectronics has been manufactured on flexible and soft carriers in the past, current technology consume space and volume, that when applied to CNS, rule out close proximity and amalgamation between the bioelectronics technology and CNS components – features that are needed in order to reach high therapeutic efficacy.
e-NeuroPharma includes development of innovative organic bioelectronics, that can be in-vivo-manufactured within the brain. The overall aim is to evaluate and develop electrodes, delivery devices and sensors that enable a twinned biochemical-electric therapy approach to combat ND and other neurological disorders. e-NeuroPharma will focus on the development of materials that can cross the blood-brain-barrier, that self-organize and -polymerize along CNS components, and that record and regulate relevant electrical, electrochemical and physical parameters relevant to ND and disorders

As the population ages, neurodegenerative diseases (ND) will have a devastating impact on individuals and society. Despite enormous research efforts there is still no cure for these diseases, only care! The origin of ND is hugely complex, spanning from the molecular level to systemic processes, causing malfunctioning of signalling in the central nervous system (CNS). This signalling includes the coupled processing of biochemical and electrical signals, however current approaches for symptomatic- and disease modifying treatments are all based on biochemical approaches, alone.
Organic bioelectronics has arisen as a promising technology providing signal translation, as sensors and modulators, across the biology-technology interface; especially, it has proven unique in neuronal applications. There is great opportunity with organic bioelectronics since it can complement biochemical pharmacology to enable a twinned electric-biochemical therapy for ND and neurological disorders. However, this technology is traditionally manufactured on stand-alone substrates. Even though organic bioelectronics has been manufactured on flexible and soft carriers in the past, current technology consume space and volume, that when applied to CNS, rule out close proximity and amalgamation between the bioelectronics technology and CNS components – features that are needed in order to reach high therapeutic efficacy.
e-NeuroPharma includes development of innovative organic bioelectronics, that can be in-vivo-manufactured within the brain. The overall aim is to evaluate and develop electrodes, delivery devices and sensors that enable a twinned biochemical-electric therapy approach to combat ND and other neurological disorders. e-NeuroPharma will focus on the development of materials that can cross the blood-brain-barrier, that self-organize and -polymerize along CNS components, and that record and regulate relevant electrical, electrochemical and physical parameters relevant to ND and disorders

SummaryNanostructured dielectric and metallic photonic architectures can concentrate the electric field through resonances, increase the light optical path by strong diffraction and exhibit many other interesting optical phenomena that cannot be achieved with traditional lenses and mirrors. The use of these structures within actual devices will be most beneficial for enhanced light absorption in thin solar cells, photodetectors and to develop new sensors and light emitters. However, emerging optoelectronic devices rely on large area and low cost fabrication routes such as roll to roll or solution processing, to cut manufacturing costs and increase the production throughput. If the exciting properties exhibited by the photonic structures are to be implemented in these devices, then they too have to be processed in a similar fashion as the devices they intend to improve. This research plan is aimed to develop photonic electrodes that will enhance light matter interaction based on wave optics phenomena while being fabricated with techniques fully compatible with today’s mass production approaches, allowing seamless integration of wave optics components in current devices. The objectives of this proposal are: 1) to investigate the fundaments of the enhanced light-matter interaction observed in devices that use wave optics elements. 2) To develop fabrication routes for large area and low cost photonic and plasmonic structures using techniques similar to those employed in industry, so they could be easily incorporated in technologies such as roll to roll. 3) To fabricate prototype solar cells, photodetectors and sensors on top of photonic electrodes, demonstrating improved performance without deterioration of other figures of merit in the device. The results of the research plan will advance the state of the art in nanophotonics structures, providing the path towards a new generation of large-scale and low-cost photonic architectures.

Nanostructured dielectric and metallic photonic architectures can concentrate the electric field through resonances, increase the light optical path by strong diffraction and exhibit many other interesting optical phenomena that cannot be achieved with traditional lenses and mirrors. The use of these structures within actual devices will be most beneficial for enhanced light absorption in thin solar cells, photodetectors and to develop new sensors and light emitters. However, emerging optoelectronic devices rely on large area and low cost fabrication routes such as roll to roll or solution processing, to cut manufacturing costs and increase the production throughput. If the exciting properties exhibited by the photonic structures are to be implemented in these devices, then they too have to be processed in a similar fashion as the devices they intend to improve. This research plan is aimed to develop photonic electrodes that will enhance light matter interaction based on wave optics phenomena while being fabricated with techniques fully compatible with today’s mass production approaches, allowing seamless integration of wave optics components in current devices. The objectives of this proposal are: 1) to investigate the fundaments of the enhanced light-matter interaction observed in devices that use wave optics elements. 2) To develop fabrication routes for large area and low cost photonic and plasmonic structures using techniques similar to those employed in industry, so they could be easily incorporated in technologies such as roll to roll. 3) To fabricate prototype solar cells, photodetectors and sensors on top of photonic electrodes, demonstrating improved performance without deterioration of other figures of merit in the device. The results of the research plan will advance the state of the art in nanophotonics structures, providing the path towards a new generation of large-scale and low-cost photonic architectures.

Max ERC Funding

1 500 000 €

Duration

Start date: 2015-12-01, End date: 2021-11-30

Project acronymEnvJustice

ProjectA GLOBAL MOVEMENT FOR ENVIRONMENTAL JUSTICE: The EJAtlas

Researcher (PI)Joan MARTÍNEZ ALIER

Host Institution (HI)UNIVERSIDAD AUTONOMA DE BARCELONA

Call DetailsAdvanced Grant (AdG), SH3, ERC-2015-AdG

Summary"The Environmental Justice Atlas (www.ejatlas.org) is a global database built by us, drawing on activist and academic knowledge. It maps 1500 conflicts. To improve geographical and thematic coverage it will grow to 3000 by 2019. It systematizes conflicts across 100+ fields documenting the commodities at stake, the actors involved, impacts, forms of mobilizations and outcomes allowing analyses that will lead to a general theory of ecological distribution conflicts.
We shall research the links between changes in social metabolism and resource extraction conflicts at the “commodity frontiers”. Also other questions in political ecology and social movement theory such as the effectiveness of direct action by grassroots protesters compared to institutional forms of contention. Does the involvement of different actors, e.g. indigenous groups, relate to different conflict outcomes? How often does the IUCN ally itself to ""the environmentalism of the poor""? Do mobilizations and outcomes vary across sectors (mining, hydroelectric dams, waste incinerators) according to project differences in economic and biophysical dimensions, environmental and health risks? Are conflicts on point resources (mining, oil extraction) regularly different from conflicts in agriculture? Can we track networked resistances against Western companies, compared to those from China or other countries?
Resistance to environmental damage has brought into being many local and some international EJOs pushing for alternative social transformations. We shall study the Vocabulary of Environmental Justice they deploy: climate justice, water justice, food sovereignty, biopiracy, sacrifice zones, and other terms specific to countries: Chinese “cancer villages”, Indian “sand mafias”, Brazilian “green deserts” (eucalyptus plantations). Finally, are there signs of an alliance between the Global Environmental Justice Movement and the small European movement for “prosperity without growth”, décroissance, Post-Wachstum?"

"The Environmental Justice Atlas (www.ejatlas.org) is a global database built by us, drawing on activist and academic knowledge. It maps 1500 conflicts. To improve geographical and thematic coverage it will grow to 3000 by 2019. It systematizes conflicts across 100+ fields documenting the commodities at stake, the actors involved, impacts, forms of mobilizations and outcomes allowing analyses that will lead to a general theory of ecological distribution conflicts.
We shall research the links between changes in social metabolism and resource extraction conflicts at the “commodity frontiers”. Also other questions in political ecology and social movement theory such as the effectiveness of direct action by grassroots protesters compared to institutional forms of contention. Does the involvement of different actors, e.g. indigenous groups, relate to different conflict outcomes? How often does the IUCN ally itself to ""the environmentalism of the poor""? Do mobilizations and outcomes vary across sectors (mining, hydroelectric dams, waste incinerators) according to project differences in economic and biophysical dimensions, environmental and health risks? Are conflicts on point resources (mining, oil extraction) regularly different from conflicts in agriculture? Can we track networked resistances against Western companies, compared to those from China or other countries?
Resistance to environmental damage has brought into being many local and some international EJOs pushing for alternative social transformations. We shall study the Vocabulary of Environmental Justice they deploy: climate justice, water justice, food sovereignty, biopiracy, sacrifice zones, and other terms specific to countries: Chinese “cancer villages”, Indian “sand mafias”, Brazilian “green deserts” (eucalyptus plantations). Finally, are there signs of an alliance between the Global Environmental Justice Movement and the small European movement for “prosperity without growth”, décroissance, Post-Wachstum?"

Max ERC Funding

1 910 811 €

Duration

Start date: 2016-06-01, End date: 2021-05-31

Project acronymEQUALIZE

ProjectEqualizing or disequalizing? Opposing socio-demographic determinants of the spatial distribution of welfare.

Researcher (PI)Iñaki Permanyer Ugartemendia

Host Institution (HI)CENTRO DE ESTUDIOS DEMOGRAFICOS

Call DetailsStarting Grant (StG), SH3, ERC-2014-STG

SummaryThis project aims to investigate the extent to which current trends in family formation, living arrangements and gender-specific education levels are related to the spatial distribution of welfare and the emergence of jobless households in contemporary societies. Inter alia, we aim to explore whether the welfare disequalizing, impoverishing and polarizing effects that are currently associated with recent patterns in assortative mating, lone parenthood and household composition are offset by an unprecedented phenomenon that is sweeping the world during the last decades: the rapid process education expansion in tandem with a reversal of the gender gap in education. The extent to which these two opposing forces occur and which of them is more influential in shaping the distribution of welfare between and within countries is among the main goals of this project. To this end, we will draw upon a variety of household surveys and the world largest sources of census microdata: the Integrated Public Use Microdata Series (IPUMS) project and the Latin American and Caribbean Demographic Centre. Because of their unparalleled geographical coverage and detail, these sources of data constitute exceptional instruments to study socio-demographic phenomena that have been vastly underutilized by the international research community. Triangulating our analysis at the micro, meso and macro levels, we will establish formal linkages between welfare distributions and its socio-demographic correlates to unveil insightful relationships that have been unsatisfactorily explored so far because of the lack of appropriately harmonized, sufficiently detailed and georeferenced datasets. We will strongly emphasize the spatial distribution of variables to unravel local patterns that might take place at highly disaggregated levels, therefore not being discernible to traditional (not as finely-grained) approaches.

This project aims to investigate the extent to which current trends in family formation, living arrangements and gender-specific education levels are related to the spatial distribution of welfare and the emergence of jobless households in contemporary societies. Inter alia, we aim to explore whether the welfare disequalizing, impoverishing and polarizing effects that are currently associated with recent patterns in assortative mating, lone parenthood and household composition are offset by an unprecedented phenomenon that is sweeping the world during the last decades: the rapid process education expansion in tandem with a reversal of the gender gap in education. The extent to which these two opposing forces occur and which of them is more influential in shaping the distribution of welfare between and within countries is among the main goals of this project. To this end, we will draw upon a variety of household surveys and the world largest sources of census microdata: the Integrated Public Use Microdata Series (IPUMS) project and the Latin American and Caribbean Demographic Centre. Because of their unparalleled geographical coverage and detail, these sources of data constitute exceptional instruments to study socio-demographic phenomena that have been vastly underutilized by the international research community. Triangulating our analysis at the micro, meso and macro levels, we will establish formal linkages between welfare distributions and its socio-demographic correlates to unveil insightful relationships that have been unsatisfactorily explored so far because of the lack of appropriately harmonized, sufficiently detailed and georeferenced datasets. We will strongly emphasize the spatial distribution of variables to unravel local patterns that might take place at highly disaggregated levels, therefore not being discernible to traditional (not as finely-grained) approaches.

Max ERC Funding

1 174 500 €

Duration

Start date: 2015-05-01, End date: 2020-04-30

Project acronymERA

ProjectEarth Resilience in the Anthropocene (ERA)Integrating non-linear biophysical and social determinantsof Earth-system stability for global sustainabilitythrough a novel community modelling platform

Researcher (PI)johan ROCKSTRÖM

Host Institution (HI)STOCKHOLMS UNIVERSITET

Call DetailsAdvanced Grant (AdG), SH2, ERC-2016-ADG

SummaryIn 2015, the UN Sustainable Development Goals (SDGs) and the Paris Agreement on climate recognised the deteriorating resilience of the Earth system in the Anthropocene. Maintaining Earth in the interglacial state that enabled the world’s societies to evolve over the past 12,000 years will require industrialised societies to embark on global-scale social transformations. Otherwise, there is a real risk of crossing tipping points in the Earth system triggering abrupt and irreversible changes.
A critical gap is that although nonlinear social and biophysical dynamics are recognized, we remain trapped in linear thinking. Global modelling and analyses – despite much progress – do not adequately represent nonlinear processes and abrupt changes, and social responses to sustainable development are incremental.
The goal of this project is to fill this gap, by exploring the biophysical and social determinants of the Earth’s long-term stability, building up a novel community modelling platform for analysis of nonlinearity and abrupt shifts, and informing global sustainability policy processes. The project will investigate two hypotheses: 1) Interactions, feedbacks and tipping points in the biosphere could, even in the absence of continued high emissions from fossil-fuel burning, tip Earth into a new state, committing to global warming over 2C and possibly beyond 4C; and 2) Only nonlinear societal transformations that aggregate to the global scale can assure long-term stability of the Earth and keep it in a manageable interglacial state.
The five research tasks are Task 1: analysis of nonlinear biosphere dynamics governing Earth resilience. Task 2: integrating nonlinear dynamics in World-Earth models. Task 3: exploring tipping points in social systems for large-scale transformation. Task 4: backcasting pathways for achieving the SDGs. Task 5: integrating World-Earth dynamics into online learning and virtual-reality games, e.g. Planet3 and Minecraft.

In 2015, the UN Sustainable Development Goals (SDGs) and the Paris Agreement on climate recognised the deteriorating resilience of the Earth system in the Anthropocene. Maintaining Earth in the interglacial state that enabled the world’s societies to evolve over the past 12,000 years will require industrialised societies to embark on global-scale social transformations. Otherwise, there is a real risk of crossing tipping points in the Earth system triggering abrupt and irreversible changes.
A critical gap is that although nonlinear social and biophysical dynamics are recognized, we remain trapped in linear thinking. Global modelling and analyses – despite much progress – do not adequately represent nonlinear processes and abrupt changes, and social responses to sustainable development are incremental.
The goal of this project is to fill this gap, by exploring the biophysical and social determinants of the Earth’s long-term stability, building up a novel community modelling platform for analysis of nonlinearity and abrupt shifts, and informing global sustainability policy processes. The project will investigate two hypotheses: 1) Interactions, feedbacks and tipping points in the biosphere could, even in the absence of continued high emissions from fossil-fuel burning, tip Earth into a new state, committing to global warming over 2C and possibly beyond 4C; and 2) Only nonlinear societal transformations that aggregate to the global scale can assure long-term stability of the Earth and keep it in a manageable interglacial state.
The five research tasks are Task 1: analysis of nonlinear biosphere dynamics governing Earth resilience. Task 2: integrating nonlinear dynamics in World-Earth models. Task 3: exploring tipping points in social systems for large-scale transformation. Task 4: backcasting pathways for achieving the SDGs. Task 5: integrating World-Earth dynamics into online learning and virtual-reality games, e.g. Planet3 and Minecraft.

Max ERC Funding

2 492 834 €

Duration

Start date: 2017-10-01, End date: 2022-09-30

Project acronymEXWINGS

ProjectExplaining the winds of cool giant and supergiant stars with global 3D models

Researcher (PI)Susanne HÖFNER

Host Institution (HI)UPPSALA UNIVERSITET

Call DetailsAdvanced Grant (AdG), PE9, ERC-2019-ADG

SummaryWithout stellar winds, life as we know it would not exist. Critical elements like carbon are produced inside luminous cool giant stars, transported to the surface by turbulent gas flows, and ejected into interstellar space by massive outflows of gas and dust. Direct evidence for this scenario comes in the form of dust grains produced in the stellar winds, and detected in meteorites by their isotopic composition. Nevertheless, the current understanding of stellar winds is far from sufficient to draw a realistic, quantitative picture of their effects on stellar evolution and their contribution to the enrichment of the interstellar medium with newly-produced elements and dust.
Project EXWINGS aims at a breakthrough in understanding the winds of cool giant and supergiant stars with a novel modeling approach. We will produce global radiation-hydrodynamical ‘star-and-wind-in-a-box’ simulations, based on our recently-developed prototype. For the first time, it will be possible to follow the flow of matter, in full 3D geometry, all the way from the convective, pulsating interior of a cool giant, through its atmosphere and dust-formation zone, into the dust-driven wind region. Extending our unique approach to the warmer, more luminous red supergiants, we will explore alternative driving scenarios for their still enigmatic winds, involving magneto-hydrodynamic waves and radiation pressure on molecules and dust.
The current progress in high-angular-resolution instruments, giving resolved views of the stellar atmospheres where the winds originate, presents an excellent opportunity for testing the new models. An ultimate goal is a predictive theory of mass loss and dust production in evolved stars, based on first physical principles. The results of EXWINGS will have a major impact on understanding stellar and galactic chemical evolution, on tracing the origin of building blocks for terrestrial planets, and on constraining physical properties of supernova progenitors.

Without stellar winds, life as we know it would not exist. Critical elements like carbon are produced inside luminous cool giant stars, transported to the surface by turbulent gas flows, and ejected into interstellar space by massive outflows of gas and dust. Direct evidence for this scenario comes in the form of dust grains produced in the stellar winds, and detected in meteorites by their isotopic composition. Nevertheless, the current understanding of stellar winds is far from sufficient to draw a realistic, quantitative picture of their effects on stellar evolution and their contribution to the enrichment of the interstellar medium with newly-produced elements and dust.
Project EXWINGS aims at a breakthrough in understanding the winds of cool giant and supergiant stars with a novel modeling approach. We will produce global radiation-hydrodynamical ‘star-and-wind-in-a-box’ simulations, based on our recently-developed prototype. For the first time, it will be possible to follow the flow of matter, in full 3D geometry, all the way from the convective, pulsating interior of a cool giant, through its atmosphere and dust-formation zone, into the dust-driven wind region. Extending our unique approach to the warmer, more luminous red supergiants, we will explore alternative driving scenarios for their still enigmatic winds, involving magneto-hydrodynamic waves and radiation pressure on molecules and dust.
The current progress in high-angular-resolution instruments, giving resolved views of the stellar atmospheres where the winds originate, presents an excellent opportunity for testing the new models. An ultimate goal is a predictive theory of mass loss and dust production in evolved stars, based on first physical principles. The results of EXWINGS will have a major impact on understanding stellar and galactic chemical evolution, on tracing the origin of building blocks for terrestrial planets, and on constraining physical properties of supernova progenitors.

Max ERC Funding

2 456 383 €

Duration

Start date: 2020-09-01, End date: 2025-08-31

Project acronymFAMILIY POLARIZATION

ProjectSTRATIFIED FAMILY DYNAMICS:
POLARIZING TRENDS IN COUPLE BEHAVIOUR AND PARENTING

Researcher (PI)Gosta Knud Jorgen Esping-Andersen

Host Institution (HI)UNIVERSIDAD POMPEU FABRA

Call DetailsAdvanced Grant (AdG), SH2, ERC-2010-AdG_20100407

SummaryThe project applies a multiple equilibrium framework to understand ongoing transformations in family demography and their consequences for social inequalities. Associated with the changing economic role of women emerge novel family forms that replace the conventional male breadwinner model. The transition is very much in flux, producing multiple equilibria some of which are unstable and associated with inefficient and inequitable couple specialization. Based on long micro panel data for four countries at different stages of the transition, the study will address three parallel issues. One, identifying equilibrium shifts from the traditional towards more gender symmetric family forms, with particular focus on the endogenously driven dynamics that drive populations towards a gender egalitarian equilibrium. Two, analyzing the potentially polarizing demographic correlates of changing family behaviour in particular in terms of marital choice and couple stability. Three, testing hypotheses regarding family polarization with respect to parental investments in children and how these, in turn, influence children’s life chances.

The project applies a multiple equilibrium framework to understand ongoing transformations in family demography and their consequences for social inequalities. Associated with the changing economic role of women emerge novel family forms that replace the conventional male breadwinner model. The transition is very much in flux, producing multiple equilibria some of which are unstable and associated with inefficient and inequitable couple specialization. Based on long micro panel data for four countries at different stages of the transition, the study will address three parallel issues. One, identifying equilibrium shifts from the traditional towards more gender symmetric family forms, with particular focus on the endogenously driven dynamics that drive populations towards a gender egalitarian equilibrium. Two, analyzing the potentially polarizing demographic correlates of changing family behaviour in particular in terms of marital choice and couple stability. Three, testing hypotheses regarding family polarization with respect to parental investments in children and how these, in turn, influence children’s life chances.

Max ERC Funding

2 098 860 €

Duration

Start date: 2011-06-01, End date: 2016-05-31

Project acronymFamily Justice

ProjectJustice and the Family: An Analysis of the Normative Significance of Procreation and Parenthood in a Just Society

Researcher (PI)Maria Serena Olsaretti

Host Institution (HI)UNIVERSIDAD POMPEU FABRA

Call DetailsConsolidator Grant (CoG), SH2, ERC-2014-CoG

SummaryThis project examines the normative significance of procreation and parenthood for theories of justice. Important questions of justice about the family arise once we acknowledge and keep in view that procreation and parenthood are both integral to the existence of any society (and therefore, a just society), and that they involve substantial benefits and burdens for parents, children, and society at large. Yet existing theories of justice generally neglect these questions by assuming that the principles they formulate are to regulate the main institutions of societies constituted by fully formed adult individuals whose creation and care are taken as given. The project identifies and analyses three main sets of questions about family justice: 1) Does justice require that parents and non-parents share, and share equally, the costs and benefits of having children, and how do different answers to this question bear on our theory of distributive justice? 2) What are the claims of justice that we have as children, how do they relate to those we have as adults, and who bears the correlative duties? 3) Do all contemporaries, regardless of whether they are parents or non-parents, have the same obligations of justice towards future generations, and how, if at all, are the justification and the content of those obligations affected by considerations about what parents owe their children and parents and non-parents owe to each other? Addressing these questions contributes to developing normative-theoretical framework needed to address pressing public policy concerns, and also turns out to be more central to the formulation of a complete and defensible theory of justice than political philosophers have realised to date.

This project examines the normative significance of procreation and parenthood for theories of justice. Important questions of justice about the family arise once we acknowledge and keep in view that procreation and parenthood are both integral to the existence of any society (and therefore, a just society), and that they involve substantial benefits and burdens for parents, children, and society at large. Yet existing theories of justice generally neglect these questions by assuming that the principles they formulate are to regulate the main institutions of societies constituted by fully formed adult individuals whose creation and care are taken as given. The project identifies and analyses three main sets of questions about family justice: 1) Does justice require that parents and non-parents share, and share equally, the costs and benefits of having children, and how do different answers to this question bear on our theory of distributive justice? 2) What are the claims of justice that we have as children, how do they relate to those we have as adults, and who bears the correlative duties? 3) Do all contemporaries, regardless of whether they are parents or non-parents, have the same obligations of justice towards future generations, and how, if at all, are the justification and the content of those obligations affected by considerations about what parents owe their children and parents and non-parents owe to each other? Addressing these questions contributes to developing normative-theoretical framework needed to address pressing public policy concerns, and also turns out to be more central to the formulation of a complete and defensible theory of justice than political philosophers have realised to date.